The role of the elemental carbon (EC), in synergy with hygroscopic ionic species, was investigated to study the formation of electrical bridging phenomena once the aerosol deliquescence is achieved. Ambient aerosol samples were collected on hydrophobic surfaces in urban and rural sites in Northern Italy; their conductance was measured in an Aerosol Exposure Chamber (AEC) while varying the relative humidity. An electric signal was detected on 64% of the collected samples with conductance values (11.20 ± 7.43 μS) above the failure threshold (1 μS) of printed circuit boards. The ionic content was higher for non-electrically conductive samples (43.7 ± 5.6%) than for electrically conductive ones (37.1 ± 5.6%). Conversely, EC was two times higher for electrically conductive samples (26.4 ± 4.1 μg cm-2; 8.4 ± 1.7%) than for non-electrical ones (12.0 ± 4.1 μg cm-2; 5.2 ± 1.9%) suggesting that the synergy between the ionic and carbonaceous fractions is necessary to promote a bridging phenomenon. Synthetic aerosols (EC only, saline only, mixed saline and EC) were generated in laboratory and their conductance was measured in the AEC to verify the ambient results. Only in case of a contemporary presence of both EC and ionic components the bridging phenomenon occurred in keeping with the theoretical deliquescence values of each salt (R2 = 0.996).

Ferrero, L., Bigogno, A., Cefali, A., Rovelli, G., D'Angelo, L., Casati, M., et al. (2020). On the synergy between elemental carbon and inorganic ions in the determination of the electrical conductance properties of deposited aerosols: Implications for energy applications. APPLIED SCIENCES, 10(16) [10.3390/app10165559].

On the synergy between elemental carbon and inorganic ions in the determination of the electrical conductance properties of deposited aerosols: Implications for energy applications

Ferrero L.
;
Bigogno A.;Cefali A. M.;Rovelli G.;Losi N.;Bolzacchini E.
2020

Abstract

The role of the elemental carbon (EC), in synergy with hygroscopic ionic species, was investigated to study the formation of electrical bridging phenomena once the aerosol deliquescence is achieved. Ambient aerosol samples were collected on hydrophobic surfaces in urban and rural sites in Northern Italy; their conductance was measured in an Aerosol Exposure Chamber (AEC) while varying the relative humidity. An electric signal was detected on 64% of the collected samples with conductance values (11.20 ± 7.43 μS) above the failure threshold (1 μS) of printed circuit boards. The ionic content was higher for non-electrically conductive samples (43.7 ± 5.6%) than for electrically conductive ones (37.1 ± 5.6%). Conversely, EC was two times higher for electrically conductive samples (26.4 ± 4.1 μg cm-2; 8.4 ± 1.7%) than for non-electrical ones (12.0 ± 4.1 μg cm-2; 5.2 ± 1.9%) suggesting that the synergy between the ionic and carbonaceous fractions is necessary to promote a bridging phenomenon. Synthetic aerosols (EC only, saline only, mixed saline and EC) were generated in laboratory and their conductance was measured in the AEC to verify the ambient results. Only in case of a contemporary presence of both EC and ionic components the bridging phenomenon occurred in keeping with the theoretical deliquescence values of each salt (R2 = 0.996).
Articolo in rivista - Articolo scientifico
Aerosol; Bridging; Elemental carbon; Energy; Failure; Po valley;
English
11-ago-2020
2020
10
16
5559
open
Ferrero, L., Bigogno, A., Cefali, A., Rovelli, G., D'Angelo, L., Casati, M., et al. (2020). On the synergy between elemental carbon and inorganic ions in the determination of the electrical conductance properties of deposited aerosols: Implications for energy applications. APPLIED SCIENCES, 10(16) [10.3390/app10165559].
File in questo prodotto:
File Dimensione Formato  
AS-2020-Ferrero-EC Ions Conductivity.pdf

accesso aperto

Tipologia di allegato: Publisher’s Version (Version of Record, VoR)
Dimensione 4.73 MB
Formato Adobe PDF
4.73 MB Adobe PDF Visualizza/Apri

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/300160
Citazioni
  • Scopus 2
  • ???jsp.display-item.citation.isi??? 2
Social impact